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Mechanistic procedure for parameter determination of multiplicative decomposition based constitutive models
By exploiting the Clausius–Planck local energy dissipation inequality, a large strain, three-dimensional constitutive model has been developed for the monotonic and cyclic response prediction of various asphaltic materials. The model consists of a Zener non-linear, visco-elastic component acting in series with a stress dependent viscous component. A novel computational scheme has been developed for solution of the coupled system of equations expressing the interdependent response of these two in series components. An explicit, mechanistic, parameter determination procedure is presented for the laboratory determination of all necessary model parameters. Examples of model parameter determination and utilisation for prediction of the response of a recycled asphalt mix and a stone mastic asphalt mix are presented.
Mechanistic procedure for parameter determination of multiplicative decomposition based constitutive models
By exploiting the Clausius–Planck local energy dissipation inequality, a large strain, three-dimensional constitutive model has been developed for the monotonic and cyclic response prediction of various asphaltic materials. The model consists of a Zener non-linear, visco-elastic component acting in series with a stress dependent viscous component. A novel computational scheme has been developed for solution of the coupled system of equations expressing the interdependent response of these two in series components. An explicit, mechanistic, parameter determination procedure is presented for the laboratory determination of all necessary model parameters. Examples of model parameter determination and utilisation for prediction of the response of a recycled asphalt mix and a stone mastic asphalt mix are presented.
Mechanistic procedure for parameter determination of multiplicative decomposition based constitutive models
Villani, M.M. (author) / Kasbergen, C. (author) / Scarpas, A. (author) / Lo Presti, D. (author)
International Journal of Pavement Engineering ; 18 ; 391-403
2017-05-04
13 pages
Article (Journal)
Electronic Resource
English
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